Filters in Ansible are from Jinja2, and are used for transforming data inside a template expression. Jinja2 ships with many filters. See builtin filters in the official Jinja2 template documentation.
Take into account that templating happens on the Ansible controller, not on the task’s target host, so filters also execute on the controller as they manipulate local data.
In addition the ones provided by Jinja2, Ansible ships with its own and allows users to add their own custom filters.
The following filters will take a data structure in a template and render it in a slightly different format. These are occasionally useful for debugging:
{{ some_variable | to_json }} {{ some_variable | to_yaml }}
For human readable output, you can use:
{{ some_variable | to_nice_json }} {{ some_variable | to_nice_yaml }}
It’s also possible to change the indentation of both (new in version 2.2):
{{ some_variable | to_nice_json(indent=2) }} {{ some_variable | to_nice_yaml(indent=8) }}
to_yaml
and to_nice_yaml
filters use PyYAML library which has a default 80 symbol string length limit. That causes unexpected line break after 80th symbol (if there is a space after 80th symbol) To avoid such behaviour and generate long lines it is possible to use width
option:
{{ some_variable | to_yaml(indent=8, width=1337) }} {{ some_variable | to_nice_yaml(indent=8, width=1337) }}
While it would be nicer to use a construction like float("inf")
instead of a hardcoded number, unfortunately the filter doesn’t support proxying Python functions. Note that it also supports passing through other YAML parameters. Full list can be found in PyYAML documentation.
Alternatively, you may be reading in some already formatted data:
{{ some_variable | from_json }} {{ some_variable | from_yaml }}
for example:
tasks: - shell: cat /some/path/to/file.json register: result - set_fact: myvar: "{{ result.stdout | from_json }}"
New in version 2.7.
To parse multi-document yaml strings, the from_yaml_all
filter is provided. The from_yaml_all
filter will return a generator of parsed yaml documents.
for example:
tasks: - shell: cat /some/path/to/multidoc-file.yaml register: result - debug: msg: '{{ item }}' loop: '{{ result.stdout | from_yaml_all | list }}'
The default behavior from ansible and ansible.cfg is to fail if variables are undefined, but you can turn this off.
This allows an explicit check with this feature off:
{{ variable | mandatory }}
The variable value will be used as is, but the template evaluation will raise an error if it is undefined.
Jinja2 provides a useful ‘default’ filter that is often a better approach to failing if a variable is not defined:
{{ some_variable | default(5) }}
In the above example, if the variable ‘some_variable’ is not defined, the value used will be 5, rather than an error being raised.
If you want to use the default value when variables evaluate to false or an empty string you have to set the second parameter to true
:
{{ lookup('env', 'MY_USER') | default('admin', true) }}
As of Ansible 1.8, it is possible to use the default filter to omit module parameters using the special omit
variable:
- name: touch files with an optional mode file: dest: "{{ item.path }}" state: touch mode: "{{ item.mode | default(omit) }}" loop: - path: /tmp/foo - path: /tmp/bar - path: /tmp/baz mode: "0444"
For the first two files in the list, the default mode will be determined by the umask of the system as the mode=
parameter will not be sent to the file module while the final file will receive the mode=0444
option.
Note
If you are “chaining” additional filters after the default(omit)
filter, you should instead do something like this: "{{ foo | default(None) | some_filter or omit }}"
. In this example, the default None
(Python null) value will cause the later filters to fail, which will trigger the or omit
portion of the logic. Using omit
in this manner is very specific to the later filters you’re chaining though, so be prepared for some trial and error if you do this.
These filters all operate on list variables.
New in version 1.8.
To get the minimum value from list of numbers:
{{ list1 | min }}
To get the maximum value from a list of numbers:
{{ [3, 4, 2] | max }}
New in version 2.5.
Flatten a list (same thing the flatten
lookup does):
{{ [3, [4, 2] ] | flatten }}
Flatten only the first level of a list (akin to the items
lookup):
{{ [3, [4, [2]] ] | flatten(levels=1) }}
All these functions return a unique set from sets or lists.
New in version 1.4.
To get a unique set from a list:
{{ list1 | unique }}
To get a union of two lists:
{{ list1 | union(list2) }}
To get the intersection of 2 lists (unique list of all items in both):
{{ list1 | intersect(list2) }}
To get the difference of 2 lists (items in 1 that don’t exist in 2):
{{ list1 | difference(list2) }}
To get the symmetric difference of 2 lists (items exclusive to each list):
{{ list1 | symmetric_difference(list2) }}
New in version 2.6.
To turn a dictionary into a list of items, suitable for looping, use dict2items
:
{{ dict | dict2items }}
Which turns:
tags: Application: payment Environment: dev
into:
- key: Application value: payment - key: Environment value: dev
New in version 2.8.
dict2items
accepts 2 keyword arguments, key_name
and value_name
that allow configuration of the names of the keys to use for the transformation:
{{ files | dict2items(key_name='file', value_name='path') }}
Which turns:
files: users: /etc/passwd groups: /etc/group
into:
- file: users path: /etc/passwd - file: groups path: /etc/group
New in version 2.7.
This filter turns a list of dicts with 2 keys, into a dict, mapping the values of those keys into key: value
pairs:
{{ tags | items2dict }}
Which turns:
tags: - key: Application value: payment - key: Environment value: dev
into:
Application: payment Environment: dev
This is the reverse of the dict2items
filter.
items2dict
accepts 2 keyword arguments, key_name
and value_name
that allow configuration of the names of the keys to use for the transformation:
{{ tags | items2dict(key_name='key', value_name='value') }}
New in version 2.3.
To get a list combining the elements of other lists use zip
:
- name: give me list combo of two lists debug: msg: "{{ [1,2,3,4,5] | zip(['a','b','c','d','e','f']) | list }}" - name: give me shortest combo of two lists debug: msg: "{{ [1,2,3] | zip(['a','b','c','d','e','f']) | list }}"
To always exhaust all list use zip_longest
:
- name: give me longest combo of three lists , fill with X debug: msg: "{{ [1,2,3] | zip_longest(['a','b','c','d','e','f'], [21, 22, 23], fillvalue='X') | list }}"
Similarly to the output of the items2dict
filter mentioned above, these filters can be used to construct a dict
:
{{ dict(keys_list | zip(values_list)) }}
Which turns:
keys_list: - one - two values_list: - apple - orange
into:
one: apple two: orange
New in version 2.7.
Produces a product of an object, and subelement values of that object, similar to the subelements
lookup:
{{ users | subelements('groups', skip_missing=True) }}
Which turns:
users: - name: alice authorized: - /tmp/alice/onekey.pub - /tmp/alice/twokey.pub groups: - wheel - docker - name: bob authorized: - /tmp/bob/id_rsa.pub groups: - docker
Into:
- - name: alice groups: - wheel - docker authorized: - /tmp/alice/onekey.pub - /tmp/alice/twokey.pub - wheel - - name: alice groups: - wheel - docker authorized: - /tmp/alice/onekey.pub - /tmp/alice/twokey.pub - docker - - name: bob authorized: - /tmp/bob/id_rsa.pub groups: - docker - docker
An example of using this filter with loop
:
- name: Set authorized ssh key, extracting just that data from 'users' authorized_key: user: "{{ item.0.name }}" key: "{{ lookup('file', item.1) }}" loop: "{{ users | subelements('authorized') }}"
New in version 2.6.
This filter can be used to generate a random MAC address from a string prefix.
To get a random MAC address from a string prefix starting with ‘52:54:00’:
"{{ '52:54:00' | random_mac }}" # => '52:54:00:ef:1c:03'
Note that if anything is wrong with the prefix string, the filter will issue an error.
As of Ansible version 2.9, it’s also possible to initialize the random number generator from a seed. This way, you can create random-but-idempotent MAC addresses:
"{{ '52:54:00' | random_mac(seed=inventory_hostname) }}"
New in version 1.6.
This filter can be used similar to the default jinja2 random filter (returning a random item from a sequence of items), but can also generate a random number based on a range.
To get a random item from a list:
"{{ ['a','b','c'] | random }}" # => 'c'
To get a random number between 0 and a specified number:
"{{ 60 | random }} * * * * root /script/from/cron" # => '21 * * * * root /script/from/cron'
Get a random number from 0 to 100 but in steps of 10:
{{ 101 | random(step=10) }} # => 70
Get a random number from 1 to 100 but in steps of 10:
{{ 101 | random(1, 10) }} # => 31 {{ 101 | random(start=1, step=10) }} # => 51
As of Ansible version 2.3, it’s also possible to initialize the random number generator from a seed. This way, you can create random-but-idempotent numbers:
"{{ 60 | random(seed=inventory_hostname) }} * * * * root /script/from/cron"
New in version 1.8.
This filter will randomize an existing list, giving a different order every invocation.
To get a random list from an existing list:
{{ ['a','b','c'] | shuffle }} # => ['c','a','b'] {{ ['a','b','c'] | shuffle }} # => ['b','c','a']
As of Ansible version 2.3, it’s also possible to shuffle a list idempotent. All you need is a seed.:
{{ ['a','b','c'] | shuffle(seed=inventory_hostname) }} # => ['b','a','c']
note that when used with a non ‘listable’ item it is a noop, otherwise it always returns a list
New in version 1.9.
Get the logarithm (default is e):
{{ myvar | log }}
Get the base 10 logarithm:
{{ myvar | log(10) }}
Give me the power of 2! (or 5):
{{ myvar | pow(2) }} {{ myvar | pow(5) }}
Square root, or the 5th:
{{ myvar | root }} {{ myvar | root(5) }}
Note that jinja2 already provides some like abs() and round().
New in version 2.2.
Sometimes you end up with a complex data structure in JSON format and you need to extract only a small set of data within it. The json_query filter lets you query a complex JSON structure and iterate over it using a loop structure.
Note
This filter is built upon jmespath, and you can use the same syntax. For examples, see jmespath examples.
Now, let’s take the following data structure:
{ "domain_definition": { "domain": { "cluster": [ { "name": "cluster1" }, { "name": "cluster2" } ], "server": [ { "name": "server11", "cluster": "cluster1", "port": "8080" }, { "name": "server12", "cluster": "cluster1", "port": "8090" }, { "name": "server21", "cluster": "cluster2", "port": "9080" }, { "name": "server22", "cluster": "cluster2", "port": "9090" } ], "library": [ { "name": "lib1", "target": "cluster1" }, { "name": "lib2", "target": "cluster2" } ] } } }
To extract all clusters from this structure, you can use the following query:
- name: "Display all cluster names" debug: var: item loop: "{{ domain_definition | json_query('domain.cluster[*].name') }}"
Same thing for all server names:
- name: "Display all server names" debug: var: item loop: "{{ domain_definition | json_query('domain.server[*].name') }}"
This example shows ports from cluster1:
- name: "Display all ports from cluster1" debug: var: item loop: "{{ domain_definition | json_query(server_name_cluster1_query) }}" vars: server_name_cluster1_query: "domain.server[?cluster=='cluster1'].port"
Note
You can use a variable to make the query more readable.
Or, alternatively print out the ports in a comma separated string:
- name: "Display all ports from cluster1 as a string" debug: msg: "{{ domain_definition | json_query('domain.server[?cluster==`cluster1`].port') | join(', ') }}"
Note
Here, quoting literals using backticks avoids escaping quotes and maintains readability.
Or, using YAML single quote escaping:
- name: "Display all ports from cluster1" debug: var: item loop: "{{ domain_definition | json_query('domain.server[?cluster==''cluster1''].port') }}"
Note
Escaping single quotes within single quotes in YAML is done by doubling the single quote.
In this example, we get a hash map with all ports and names of a cluster:
- name: "Display all server ports and names from cluster1" debug: var: item loop: "{{ domain_definition | json_query(server_name_cluster1_query) }}" vars: server_name_cluster1_query: "domain.server[?cluster=='cluster2'].{name: name, port: port}"
New in version 1.9.
To test if a string is a valid IP address:
{{ myvar | ipaddr }}
You can also require a specific IP protocol version:
{{ myvar | ipv4 }} {{ myvar | ipv6 }}
IP address filter can also be used to extract specific information from an IP address. For example, to get the IP address itself from a CIDR, you can use:
{{ '192.0.2.1/24' | ipaddr('address') }}
More information about ipaddr
filter and complete usage guide can be found in ipaddr filter.
New in version 2.4.
To convert the output of a network device CLI command into structured JSON output, use the parse_cli
filter:
{{ output | parse_cli('path/to/spec') }}
The parse_cli
filter will load the spec file and pass the command output through it, returning JSON output. The YAML spec file defines how to parse the CLI output.
The spec file should be valid formatted YAML. It defines how to parse the CLI output and return JSON data. Below is an example of a valid spec file that will parse the output from the show vlan
command.
--- vars: vlan: vlan_id: "{{ item.vlan_id }}" name: "{{ item.name }}" enabled: "{{ item.state != 'act/lshut' }}" state: "{{ item.state }}" keys: vlans: value: "{{ vlan }}" items: "^(?P<vlan_id>\\d+)\\s+(?P<name>\\w+)\\s+(?P<state>active|act/lshut|suspended)" state_static: value: present
The spec file above will return a JSON data structure that is a list of hashes with the parsed VLAN information.
The same command could be parsed into a hash by using the key and values directives. Here is an example of how to parse the output into a hash value using the same show vlan
command.
--- vars: vlan: key: "{{ item.vlan_id }}" values: vlan_id: "{{ item.vlan_id }}" name: "{{ item.name }}" enabled: "{{ item.state != 'act/lshut' }}" state: "{{ item.state }}" keys: vlans: value: "{{ vlan }}" items: "^(?P<vlan_id>\\d+)\\s+(?P<name>\\w+)\\s+(?P<state>active|act/lshut|suspended)" state_static: value: present
Another common use case for parsing CLI commands is to break a large command into blocks that can be parsed. This can be done using the start_block
and end_block
directives to break the command into blocks that can be parsed.
--- vars: interface: name: "{{ item[0].match[0] }}" state: "{{ item[1].state }}" mode: "{{ item[2].match[0] }}" keys: interfaces: value: "{{ interface }}" start_block: "^Ethernet.*$" end_block: "^$" items: - "^(?P<name>Ethernet\\d\\/\\d*)" - "admin state is (?P<state>.+)," - "Port mode is (.+)"
The example above will parse the output of show interface
into a list of hashes.
The network filters also support parsing the output of a CLI command using the TextFSM library. To parse the CLI output with TextFSM use the following filter:
{{ output.stdout[0] | parse_cli_textfsm('path/to/fsm') }}
Use of the TextFSM filter requires the TextFSM library to be installed.
New in version 2.5.
To convert the XML output of a network device command into structured JSON output, use the parse_xml
filter:
{{ output | parse_xml('path/to/spec') }}
The parse_xml
filter will load the spec file and pass the command output through formatted as JSON.
The spec file should be valid formatted YAML. It defines how to parse the XML output and return JSON data.
Below is an example of a valid spec file that will parse the output from the show vlan | display xml
command.
--- vars: vlan: vlan_id: "{{ item.vlan_id }}" name: "{{ item.name }}" desc: "{{ item.desc }}" enabled: "{{ item.state.get('inactive') != 'inactive' }}" state: "{% if item.state.get('inactive') == 'inactive'%} inactive {% else %} active {% endif %}" keys: vlans: value: "{{ vlan }}" top: configuration/vlans/vlan items: vlan_id: vlan-id name: name desc: description state: ".[@inactive='inactive']"
The spec file above will return a JSON data structure that is a list of hashes with the parsed VLAN information.
The same command could be parsed into a hash by using the key and values directives. Here is an example of how to parse the output into a hash value using the same show vlan | display xml
command.
--- vars: vlan: key: "{{ item.vlan_id }}" values: vlan_id: "{{ item.vlan_id }}" name: "{{ item.name }}" desc: "{{ item.desc }}" enabled: "{{ item.state.get('inactive') != 'inactive' }}" state: "{% if item.state.get('inactive') == 'inactive'%} inactive {% else %} active {% endif %}" keys: vlans: value: "{{ vlan }}" top: configuration/vlans/vlan items: vlan_id: vlan-id name: name desc: description state: ".[@inactive='inactive']"
The value of top
is the XPath relative to the XML root node. In the example XML output given below, the value of top
is configuration/vlans/vlan
, which is an XPath expression relative to the root node (<rpc-reply>). configuration
in the value of top
is the outer most container node, and vlan
is the inner-most container node.
items
is a dictionary of key-value pairs that map user-defined names to XPath expressions that select elements. The Xpath expression is relative to the value of the XPath value contained in top
. For example, the vlan_id
in the spec file is a user defined name and its value vlan-id
is the relative to the value of XPath in top
Attributes of XML tags can be extracted using XPath expressions. The value of state
in the spec is an XPath expression used to get the attributes of the vlan
tag in output XML.:
<rpc-reply> <configuration> <vlans> <vlan inactive="inactive"> <name>vlan-1</name> <vlan-id>200</vlan-id> <description>This is vlan-1</description> </vlan> </vlans> </configuration> </rpc-reply>
Note
For more information on supported XPath expressions, see https://docs.python.org/2/library/xml.etree.elementtree.html#xpath-support.
New in version 2.8.
Use the vlan_parser
filter to manipulate an unsorted list of VLAN integers into a sorted string list of integers according to IOS-like VLAN list rules. This list has the following properties:
To sort a VLAN list:
{{ [3003, 3004, 3005, 100, 1688, 3002, 3999] | vlan_parser }}
This example renders the following sorted list:
['100,1688,3002-3005,3999']
Another example Jinja template:
{% set parsed_vlans = vlans | vlan_parser %} switchport trunk allowed vlan {{ parsed_vlans[0] }} {% for i in range (1, parsed_vlans | count) %} switchport trunk allowed vlan add {{ parsed_vlans[i] }}
This allows for dynamic generation of VLAN lists on a Cisco IOS tagged interface. You can store an exhaustive raw list of the exact VLANs required for an interface and then compare that to the parsed IOS output that would actually be generated for the configuration.
New in version 1.9.
To get the sha1 hash of a string:
{{ 'test1' | hash('sha1') }}
To get the md5 hash of a string:
{{ 'test1' | hash('md5') }}
Get a string checksum:
{{ 'test2' | checksum }}
Other hashes (platform dependent):
{{ 'test2' | hash('blowfish') }}
To get a sha512 password hash (random salt):
{{ 'passwordsaresecret' | password_hash('sha512') }}
To get a sha256 password hash with a specific salt:
{{ 'secretpassword' | password_hash('sha256', 'mysecretsalt') }}
An idempotent method to generate unique hashes per system is to use a salt that is consistent between runs:
{{ 'secretpassword' | password_hash('sha512', 65534 | random(seed=inventory_hostname) | string) }}
Hash types available depend on the master system running ansible, ‘hash’ depends on hashlib password_hash depends on passlib (https://passlib.readthedocs.io/en/stable/lib/passlib.hash.html).
New in version 2.7.
Some hash types allow providing a rounds parameter:
{{ 'secretpassword' | password_hash('sha256', 'mysecretsalt', rounds=10000) }}
New in version 2.0.
The combine
filter allows hashes to be merged. For example, the following would override keys in one hash:
{{ {'a':1, 'b':2} | combine({'b':3}) }}
The resulting hash would be:
{'a':1, 'b':3}
The filter also accepts an optional recursive=True
parameter to not only override keys in the first hash, but also recurse into nested hashes and merge their keys too
{{ {'a':{'foo':1, 'bar':2}, 'b':2} | combine({'a':{'bar':3, 'baz':4}}, recursive=True) }}
This would result in:
{'a':{'foo':1, 'bar':3, 'baz':4}, 'b':2}
The filter can also take multiple arguments to merge:
{{ a | combine(b, c, d) }}
In this case, keys in d
would override those in c
, which would override those in b
, and so on.
This behaviour does not depend on the value of the hash_behaviour
setting in ansible.cfg
.
New in version 2.1.
The extract
filter is used to map from a list of indices to a list of values from a container (hash or array):
{{ [0,2] | map('extract', ['x','y','z']) | list }} {{ ['x','y'] | map('extract', {'x': 42, 'y': 31}) | list }}
The results of the above expressions would be:
['x', 'z'] [42, 31]
The filter can take another argument:
{{ groups['x'] | map('extract', hostvars, 'ec2_ip_address') | list }}
This takes the list of hosts in group ‘x’, looks them up in hostvars
, and then looks up the ec2_ip_address
of the result. The final result is a list of IP addresses for the hosts in group ‘x’.
The third argument to the filter can also be a list, for a recursive lookup inside the container:
{{ ['a'] | map('extract', b, ['x','y']) | list }}
This would return a list containing the value of b[‘a’][‘x’][‘y’]
.
New in version 2.0.
The comment
filter allows to decorate the text with a chosen comment style. For example the following:
{{ "Plain style (default)" | comment }}
will produce this output:
# # Plain style (default) #
Similar way can be applied style for C (//...
), C block (/*...*/
), Erlang (%...
) and XML (<!--...-->
):
{{ "C style" | comment('c') }} {{ "C block style" | comment('cblock') }} {{ "Erlang style" | comment('erlang') }} {{ "XML style" | comment('xml') }}
If you need a specific comment character that is not included by any of the above, you can customize it with:
{{ "My Special Case" | comment(decoration="! ") }}
producing:
! ! My Special Case !
It is also possible to fully customize the comment style:
{{ "Custom style" | comment('plain', prefix='#######\n#', postfix='#\n#######\n ###\n #') }}
That will create the following output:
####### # # Custom style # ####### ### #
The filter can also be applied to any Ansible variable. For example to make the output of the ansible_managed
variable more readable, we can change the definition in the ansible.cfg
file to this:
[defaults] ansible_managed = This file is managed by Ansible.%n template: {file} date: %Y-%m-%d %H:%M:%S user: {uid} host: {host}
and then use the variable with the comment
filter:
{{ ansible_managed | comment }}
which will produce this output:
# # This file is managed by Ansible. # # template: /home/ansible/env/dev/ansible_managed/roles/role1/templates/test.j2 # date: 2015-09-10 11:02:58 # user: ansible # host: myhost #
New in version 2.4.
The urlsplit
filter extracts the fragment, hostname, netloc, password, path, port, query, scheme, and username from an URL. With no arguments, returns a dictionary of all the fields:
{{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('hostname') }} # => 'www.acme.com' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('netloc') }} # => 'user:[email protected]:9000' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('username') }} # => 'user' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('password') }} # => 'password' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('path') }} # => '/dir/index.html' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('port') }} # => '9000' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('scheme') }} # => 'http' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('query') }} # => 'query=term' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit('fragment') }} # => 'fragment' {{ "http://user:[email protected]:9000/dir/index.html?query=term#fragment" | urlsplit }} # => # { # "fragment": "fragment", # "hostname": "www.acme.com", # "netloc": "user:[email protected]:9000", # "password": "password", # "path": "/dir/index.html", # "port": 9000, # "query": "query=term", # "scheme": "http", # "username": "user" # }
To search a string with a regex, use the “regex_search” filter:
# search for "foo" in "foobar" {{ 'foobar' | regex_search('(foo)') }} # will return empty if it cannot find a match {{ 'ansible' | regex_search('(foobar)') }} # case insensitive search in multiline mode {{ 'foo\nBAR' | regex_search("^bar", multiline=True, ignorecase=True) }}
To search for all occurrences of regex matches, use the “regex_findall” filter:
# Return a list of all IPv4 addresses in the string {{ 'Some DNS servers are 8.8.8.8 and 8.8.4.4' | regex_findall('\\b(?:[0-9]{1,3}\\.){3}[0-9]{1,3}\\b') }}
To replace text in a string with regex, use the “regex_replace” filter:
# convert "ansible" to "able" {{ 'ansible' | regex_replace('^a.*i(.*)$', 'a\\1') }} # convert "foobar" to "bar" {{ 'foobar' | regex_replace('^f.*o(.*)$', '\\1') }} # convert "localhost:80" to "localhost, 80" using named groups {{ 'localhost:80' | regex_replace('^(?P<host>.+):(?P<port>\\d+)$', '\\g<host>, \\g<port>') }} # convert "localhost:80" to "localhost" {{ 'localhost:80' | regex_replace(':80') }}
Note
If you want to match the whole string and you are using *
make sure to always wraparound your regular expression with the start/end anchors. For example ^(.*)$
will always match only one result, while (.*)
on some Python versions will match the whole string and an empty string at the end, which means it will make two replacements.
# add “https://” prefix to each item in a list GOOD: {{ hosts | map(‘regex_replace’, ‘^(.*)$’, ‘https://\1’) | list }} {{ hosts | map(‘regex_replace’, ‘(.+)’, ‘https://\1’) | list }} {{ hosts | map(‘regex_replace’, ‘^’, ‘https://’) | list }}
BAD: {{ hosts | map(‘regex_replace’, ‘(.*)’, ‘https://\1’) | list }}
# append ‘:80’ to each item in a list GOOD: {{ hosts | map(‘regex_replace’, ‘^(.*)$’, ‘\1:80’) | list }} {{ hosts | map(‘regex_replace’, ‘(.+)’, ‘\1:80’) | list }} {{ hosts | map(‘regex_replace’, ‘$’, ‘:80’) | list }}
BAD: {{ hosts | map(‘regex_replace’, ‘(.*)’, ‘\1:80’) | list }}
Note
Prior to ansible 2.0, if “regex_replace” filter was used with variables inside YAML arguments (as opposed to simpler ‘key=value’ arguments), then you needed to escape backreferences (e.g. \\1
) with 4 backslashes (\\\\
) instead of 2 (\\
).
New in version 2.0.
To escape special characters within a standard Python regex, use the “regex_escape” filter (using the default re_type=’python’ option):
# convert '^f.*o(.*)$' to '\^f\.\*o\(\.\*\)\$' {{ '^f.*o(.*)$' | regex_escape() }}
New in version 2.8.
To escape special characters within a POSIX basic regex, use the “regex_escape” filter with the re_type=’posix_basic’ option:
# convert '^f.*o(.*)$' to '\^f\.\*o(\.\*)\$' {{ '^f.*o(.*)$' | regex_escape('posix_basic') }}
Use the “k8s_config_resource_name” filter to obtain the name of a Kubernetes ConfigMap or Secret, including its hash:
{{ configmap_resource_definition | k8s_config_resource_name }}
This can then be used to reference hashes in Pod specifications:
my_secret: kind: Secret name: my_secret_name deployment_resource: kind: Deployment spec: template: spec: containers: - envFrom: - secretRef: name: {{ my_secret | k8s_config_resource_name }}
New in version 2.8.
To add quotes for shell usage:
- shell: echo {{ string_value | quote }}
To use one value on true and another on false (new in version 1.9):
{{ (name == "John") | ternary('Mr','Ms') }}
To use one value on true, one value on false and a third value on null (new in version 2.8):
{{ enabled | ternary('no shutdown', 'shutdown', omit) }}
To concatenate a list into a string:
{{ list | join(" ") }}
To get the last name of a file path, like ‘foo.txt’ out of ‘/etc/asdf/foo.txt’:
{{ path | basename }}
To get the last name of a windows style file path (new in version 2.0):
{{ path | win_basename }}
To separate the windows drive letter from the rest of a file path (new in version 2.0):
{{ path | win_splitdrive }}
To get only the windows drive letter:
{{ path | win_splitdrive | first }}
To get the rest of the path without the drive letter:
{{ path | win_splitdrive | last }}
To get the directory from a path:
{{ path | dirname }}
To get the directory from a windows path (new version 2.0):
{{ path | win_dirname }}
To expand a path containing a tilde (~
) character (new in version 1.5):
{{ path | expanduser }}
To expand a path containing environment variables:
{{ path | expandvars }}
Note
expandvars
expands local variables; using it on remote paths can lead to errors.
New in version 2.6.
To get the real path of a link (new in version 1.8):
{{ path | realpath }}
To get the relative path of a link, from a start point (new in version 1.7):
{{ path | relpath('/etc') }}
To get the root and extension of a path or filename (new in version 2.0):
# with path == 'nginx.conf' the return would be ('nginx', '.conf') {{ path | splitext }}
To work with Base64 encoded strings:
{{ encoded | b64decode }} {{ decoded | string | b64encode }}
As of version 2.6, you can define the type of encoding to use, the default is utf-8
:
{{ encoded | b64decode(encoding='utf-16-le') }} {{ decoded | string | b64encode(encoding='utf-16-le') }}
Note
The string
filter is only required for Python 2 and ensures that text to encode is a unicode string. Without that filter before b64encode the wrong value will be encoded.
New in version 2.6.
To create a UUID from a string (new in version 1.9):
{{ hostname | to_uuid }}
To cast values as certain types, such as when you input a string as “True” from a vars_prompt and the system doesn’t know it is a boolean value:
- debug: msg: test when: some_string_value | bool
New in version 1.6.
To make use of one attribute from each item in a list of complex variables, use the “map” filter (see the Jinja2 map() docs for more):
# get a comma-separated list of the mount points (e.g. "/,/mnt/stuff") on a host {{ ansible_mounts | map(attribute='mount') | join(',') }}
To get date object from string use the to_datetime
filter, (new in version in 2.2):
# Get total amount of seconds between two dates. Default date format is %Y-%m-%d %H:%M:%S but you can pass your own format {{ (("2016-08-14 20:00:12" | to_datetime) - ("2015-12-25" | to_datetime('%Y-%m-%d'))).total_seconds() }} # Get remaining seconds after delta has been calculated. NOTE: This does NOT convert years, days, hours, etc to seconds. For that, use total_seconds() {{ (("2016-08-14 20:00:12" | to_datetime) - ("2016-08-14 18:00:00" | to_datetime)).seconds }} # This expression evaluates to "12" and not "132". Delta is 2 hours, 12 seconds # get amount of days between two dates. This returns only number of days and discards remaining hours, minutes, and seconds {{ (("2016-08-14 20:00:12" | to_datetime) - ("2015-12-25" | to_datetime('%Y-%m-%d'))).days }}
New in version 2.4.
To format a date using a string (like with the shell date command), use the “strftime” filter:
# Display year-month-day {{ '%Y-%m-%d' | strftime }} # Display hour:min:sec {{ '%H:%M:%S' | strftime }} # Use ansible_date_time.epoch fact {{ '%Y-%m-%d %H:%M:%S' | strftime(ansible_date_time.epoch) }} # Use arbitrary epoch value {{ '%Y-%m-%d' | strftime(0) }} # => 1970-01-01 {{ '%Y-%m-%d' | strftime(1441357287) }} # => 2015-09-04
Note
To get all string possibilities, check https://docs.python.org/2/library/time.html#time.strftime
New in version 2.3.
This set of filters returns a list of combined lists. To get permutations of a list:
- name: give me largest permutations (order matters) debug: msg: "{{ [1,2,3,4,5] | permutations | list }}" - name: give me permutations of sets of three debug: msg: "{{ [1,2,3,4,5] | permutations(3) | list }}"
Combinations always require a set size:
- name: give me combinations for sets of two debug: msg: "{{ [1,2,3,4,5] | combinations(2) | list }}"
Also see the zip and zip_longest filters
The product filter returns the cartesian product of the input iterables.
This is roughly equivalent to nested for-loops in a generator expression.
For example:
- name: generate multiple hostnames debug: msg: "{{ ['foo', 'bar'] | product(['com']) | map('join', '.') | join(',') }}"
This would result in:
{ "msg": "foo.com,bar.com" }
New in version 2.3.
Use the type_debug
filter to display the underlying Python type of a variable. This can be useful in debugging in situations where you may need to know the exact type of a variable:
{{ myvar | type_debug }}
The human_readable
and human_to_bytes
functions let you test your playbooks to make sure you are using the right size format in your tasks - that you’re providing Byte format to computers and human-readable format to people.
Asserts whether the given string is human readable or not.
For example:
- name: "Human Readable" assert: that: - '"1.00 Bytes" == 1|human_readable' - '"1.00 bits" == 1|human_readable(isbits=True)' - '"10.00 KB" == 10240|human_readable' - '"97.66 MB" == 102400000|human_readable' - '"0.10 GB" == 102400000|human_readable(unit="G")' - '"0.10 Gb" == 102400000|human_readable(isbits=True, unit="G")'
This would result in:
{ "changed": false, "msg": "All assertions passed" }
Returns the given string in the Bytes format.
For example:
- name: "Human to Bytes" assert: that: - "{{'0'|human_to_bytes}} == 0" - "{{'0.1'|human_to_bytes}} == 0" - "{{'0.9'|human_to_bytes}} == 1" - "{{'1'|human_to_bytes}} == 1" - "{{'10.00 KB'|human_to_bytes}} == 10240" - "{{ '11 MB'|human_to_bytes}} == 11534336" - "{{ '1.1 GB'|human_to_bytes}} == 1181116006" - "{{'10.00 Kb'|human_to_bytes(isbits=True)}} == 10240"
This would result in:
{ "changed": false, "msg": "All assertions passed" }
A few useful filters are typically added with each new Ansible release. The development documentation shows how to extend Ansible filters by writing your own as plugins, though in general, we encourage new ones to be added to core so everyone can make use of them.
See also
© 2012–2018 Michael DeHaan
© 2018–2019 Red Hat, Inc.
Licensed under the GNU General Public License version 3.
https://docs.ansible.com/ansible/2.9/user_guide/playbooks_filters.html